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Method and system for monitoring electronic purchases and cash-withdrawals

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US7503489B2
US7503489B2 US11346240 US34624006A US7503489B2 US 7503489 B2 US7503489 B2 US 7503489B2 US 11346240 US11346240 US 11346240 US 34624006 A US34624006 A US 34624006A US 7503489 B2 US7503489 B2 US 7503489B2
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location
wireless
terminal
transaction
position
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US20060237531A1 (en )
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Jacob Heffez
Guy Heffez
Christopher Wood
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LOCKIP LLC
BPRIV LLC
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BPRIV LLC
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    • GPHYSICS
    • G06COMPUTING; CALCULATING; COUNTING
    • G06QDATA PROCESSING SYSTEMS OR METHODS, SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL, SUPERVISORY OR FORECASTING PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL, SUPERVISORY OR FORECASTING PURPOSES, NOT OTHERWISE PROVIDED FOR
    • G06Q20/00Payment architectures, schemes or protocols
    • G06Q20/38Payment protocols; Details thereof
    • G06Q20/40Authorisation, e.g. identification of payer or payee, verification of customer or shop credentials; Review and approval of payers, e.g. check credit lines or negative lists
    • GPHYSICS
    • G06COMPUTING; CALCULATING; COUNTING
    • G06QDATA PROCESSING SYSTEMS OR METHODS, SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL, SUPERVISORY OR FORECASTING PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL, SUPERVISORY OR FORECASTING PURPOSES, NOT OTHERWISE PROVIDED FOR
    • G06Q20/00Payment architectures, schemes or protocols
    • G06Q20/30Payment architectures, schemes or protocols characterised by the use of specific devices
    • G06Q20/32Payment architectures, schemes or protocols characterised by the use of specific devices using wireless devices
    • GPHYSICS
    • G06COMPUTING; CALCULATING; COUNTING
    • G06QDATA PROCESSING SYSTEMS OR METHODS, SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL, SUPERVISORY OR FORECASTING PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL, SUPERVISORY OR FORECASTING PURPOSES, NOT OTHERWISE PROVIDED FOR
    • G06Q20/00Payment architectures, schemes or protocols
    • G06Q20/30Payment architectures, schemes or protocols characterised by the use of specific devices
    • G06Q20/32Payment architectures, schemes or protocols characterised by the use of specific devices using wireless devices
    • G06Q20/322Aspects of commerce using mobile devices [M-devices]
    • GPHYSICS
    • G06COMPUTING; CALCULATING; COUNTING
    • G06QDATA PROCESSING SYSTEMS OR METHODS, SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL, SUPERVISORY OR FORECASTING PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL, SUPERVISORY OR FORECASTING PURPOSES, NOT OTHERWISE PROVIDED FOR
    • G06Q20/00Payment architectures, schemes or protocols
    • G06Q20/30Payment architectures, schemes or protocols characterised by the use of specific devices
    • G06Q20/32Payment architectures, schemes or protocols characterised by the use of specific devices using wireless devices
    • G06Q20/322Aspects of commerce using mobile devices [M-devices]
    • G06Q20/3224Transactions dependent on location of M-devices
    • GPHYSICS
    • G06COMPUTING; CALCULATING; COUNTING
    • G06QDATA PROCESSING SYSTEMS OR METHODS, SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL, SUPERVISORY OR FORECASTING PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL, SUPERVISORY OR FORECASTING PURPOSES, NOT OTHERWISE PROVIDED FOR
    • G06Q20/00Payment architectures, schemes or protocols
    • G06Q20/38Payment protocols; Details thereof
    • G06Q20/40Authorisation, e.g. identification of payer or payee, verification of customer or shop credentials; Review and approval of payers, e.g. check credit lines or negative lists
    • G06Q20/401Transaction verification
    • G06Q20/4014Identity check for transaction
    • GPHYSICS
    • G06COMPUTING; CALCULATING; COUNTING
    • G06QDATA PROCESSING SYSTEMS OR METHODS, SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL, SUPERVISORY OR FORECASTING PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL, SUPERVISORY OR FORECASTING PURPOSES, NOT OTHERWISE PROVIDED FOR
    • G06Q20/00Payment architectures, schemes or protocols
    • G06Q20/38Payment protocols; Details thereof
    • G06Q20/40Authorisation, e.g. identification of payer or payee, verification of customer or shop credentials; Review and approval of payers, e.g. check credit lines or negative lists
    • G06Q20/401Transaction verification
    • G06Q20/4016Transaction verification involving fraud or risk level assessment in transaction processing

Abstract

A method for facilitating the detection of misuse of an identity during an electronic transaction. The invention comprises at least five embodiments. In a first embodiment, the method comprises the step of: receiving a notification to authenticate the use of an identity at a first location, wherein the identity is associated with a first wireless terminal; determining an approximate location of the first wireless terminal based on cached position information, the approximate location of the first wireless terminal being a second location; determining whether the first and second locations match in geographical proximity; and generating an alert if the first and second locations do not match in geographical proximity. In a second embodiment, an approximate location of the first wireless terminal is determined based on cached position information stored on a GPS position database.

Description

CROSS-REFERENCE TO RELATED APPLICATIONS

This application claims the benefit of priority from U.S. Provisional Patent Application Ser. No. 60/674,709, filed Apr. 26, 2005, the entire content of which is incorporated herein by reference.

FIELD OF THE INVENTION

This invention relates to a method and system for monitoring electronic purchases.

BACKGROUND OF THE INVENTION

As credit card and debit card purchases have expanded both in number and in the methods by which they can be accomplished, particularly electronic purchases, the opportunity for fraudulent, invalid or unauthorized purchases has increased. The expansion of such purchase opportunities has resulted in an increase in monetary losses to sellers, merchants, financial institutions and authorized holders of the authorized credit card and debit cards. In response, methods and systems have been developed to reduce the number of fraudulent purchases through verification processes and systems.

An example of a method of increasing the security of payments made by credit and cash cards is set forth in U.S. Patent Publication No. 20040073519.

Another example of a method of increasing the security of payments made by credit and cash cards is set forth in U.S. Patent Publication No. 20040254868.

A cellular telephone location system for automatically recording the location of one or more mobile cellular telephones is described, for example, in U.S. Pat. No. 5,327,144. The system comprises a central site system operatively coupled to at least three cell sites. Each of the cell sites receives cellular telephone signals and integrates a timing signal common to all the cell sites. The central site calculates differences in times of arrival of the cellular telephone signals arriving among the cell sites and thereby calculates the position of the cellular telephone producing the cellular telephone signals. Additional examples of known methods for locating phones are cell sector and cell site. The full disclosure of U.S. Pat. No. 5,327,144 is hereby incorporated by reference in its entirety.

The Federal Communications Commission (FCC) has recently mandated wireless Enhanced 911 (E911) rules to improve the effectiveness and reliability of wireless 911 service by providing 911 dispatchers with additional information on wireless 911 calls. According to the FCC website, the wireless E911 program is divided into two part—Phase I and Phase II. Phase I requires carriers, upon appropriate request by a local Public Safety Answering Point (PSAP), to report the telephone number of a wireless 911 caller and the location of the antenna that received the call. Phase II requires wireless carriers to provide far more precise location information, within 50 to 300 meters in most cases. The deployment of E911 requires the development of new technologies and upgrades to local 911 PSAPs, as well as coordination among public safety agencies, wireless carriers, technology vendors, equipment manufacturers, and local wireline carriers. The FCC established a four-year rollout schedule for Phase II, beginning Oct. 1, 2001 and to be completed by Dec. 31, 2005.

SUMMARY OF THE INVENTION

A method for facilitating the detection of misuse of an identity during an electronic transaction. The present invention comprises at least five embodiments. In a first embodiment, the method comprises the steps of: receiving a notification to authenticate the use of an identity at a first location, wherein the identity is associated with a first wireless terminal; determining an approximate location of the first wireless terminal based on cached position information, the approximate location of the first wireless terminal being a second location; determining whether the first and second locations match in geographical proximity; and generating an alert if the first and second locations do not match in geographical proximity. In a second embodiment, an approximate location of the first wireless terminal is determined based on cached position information stored on a GPS position database.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a schematic block diagram showing exemplary hardware elements that can enable the practice of the various embodiments of the present invention.

FIG. 2 shows a schematic block diagram of an exemplary first wireless terminal fitted with a GPS receiver operatively coupled to an inertial navigation system according to one aspect of the present invention.

FIG. 3 shows a non-limiting example of a user registration process according to one aspect of the present invention.

FIG. 4 shows a non-limiting flow chart of one embodiment of the invention.

It should be understood that the attached figures are not intended to limit the scope of the present invention in any way.

DETAILED DESCRIPTION OF THE INVENTION

This invention relates to a method and system for monitoring electronic transactions. In general terms, in one aspect of the invention a user identity (such as the user's credit card, cash card, etc.) is associated with a first wireless terminal, e.g., the user's cell phone. The position of the user's cell phone is determined at intervals and cached (i.e., archived) to provide a stream of regularly updated pre-transaction positions. Each cached pre-transaction position can be stored on a remote position database (PDB) or on the user's cell phone. If the user's identity such as the user's credit or cash card is later used, for example, at a point of sale (POS) electronic terminal having a known location (being a first location), the invention detects the use of the user's credit card (i.e., identity) at the first location and compares the first location with the most recent cached position of the user's cell phone (now treated as a pre-transaction position to provide a second location for comparison). Specifically, a determination is made as to whether the first and second locations match in geographical proximity. If the first and second locations do not match in geographical proximity, the invention generates an alert or advisory message that is communicated to a predetermined notification device, such as the user's email account, a POS electronic terminal, a financial institution's computers or offices (such as the user's credit card company's computers, etc.). The alert can also be a reply message for blocking an associated electronic transaction at the first location.

The invention can be adjusted such that as each new pre-transaction position corresponding to the user's cell phone becomes available, the new pre-transaction position can be used to overwrite the currently archived pre-transaction position to prevent illicit or unauthorized tracking of the user's movements.

In another aspect of the invention, if the latest archived pre-transaction location (i.e., second location) and known POS location (i.e., first location) don't match, a post-transaction position (being a third location) of the user's cell phone is obtained and compared to the known first location and an alert generated if the post-transaction location (third location) and known POS location (first location) do not match in geographical proximity. Such matching can be based on a predetermined distance. For example, if the post-transaction location of the user's cell phone is determined to be more than 5 miles from the known POS location, an alert is generated and communicated to a predetermined device such as the user's cell phone and/or email address, and/or to an appropriate financial institution such as the user's bank or a credit card company's computers, the user's wireless personal digital assistant or a user's wireless enabled laptop, etc. Thus, if the actual position of the user's cell phone is not available at about the time of the transaction, the pre or post-transaction position of the user's cell phone can be used to determine if an alert is warranted.

For example, the user's cell phone may include a GPS receiver capable of determining the position of the user's cell phone, but only if the user's GPS capable cell phone is able to receive GPS signals necessary to calculate the location of the user's cell phone. GPS signals are transmitted by dedicated satellites and are often not strong enough to be received inside buildings where many ATM and POS terminals are located. The invention provides a non-obvious way of monitoring the use of one or more identities (such as a credit card or cash card number) associated with a user regardless of the ability of a user's cell phone to pick up GPS signals at the time of transaction (i.e., when the user's identity is used to authorize a transaction).

Specifically, through such monitoring, the invention facilitates the detection of a possible fraudulent or an invalid electronic purchase involving the use of a user's identity, for example, a credit card, debit card or any other kind of electronic payment or purchase system including biometric based purchases. Upon detection of suspect purchase or transaction (such as a cash withdrawal at an ATM), an advisory message is communicated to a predetermined notification device. The intent of this invention is to provide an alert upon detection of an inappropriate purchase or transaction.

The invention is now described in more detail.

It should be understood that the term “wireless terminal” (and its derivatives such as “first wireless terminal”), as used in the context of the present invention, applies to any device capable of communicating with a wireless network or cellular system. A non-limiting example of a first wireless terminal includes a cellular telephone (sometimes referred to as a cell phone or a wireless phone). Other non-limiting examples include any device that has been modified or designed to communicate with a wireless network including, but not limited to: a Personal Digital Assistant (“PDA”), such as a WiFi capable PDA, or a wireless Blackberry (such as the Blackberry 7520 model).

The predetermined notification device can be any suitable device capable of receiving communications directly or indirectly from a wireless network, such as, but not limited to: a first mobile terminal, a second mobile terminal, a Personal Digital Assistant (PDA) capable of communicating with a wireless network, a laptop computer capable of communicating with a wireless network, a message server, and an email server, an electronic terminal 120, alone or in combination. An alert sent to an electronic terminal 120 at the first location, wherein the alert prevents a transaction associated with the identity

The position of a mobile terminal can be determined by, for example, an internal positioning apparatus and an external position apparatus, alone or in combination. Examples of internal positioning apparatus include a GPS receiver built into the mobile terminal that receives Global Positioning System (“GPS”) radio signals transmitted from GPS satellites. The GPS system can be supplemented with an INS (inertial navigation system) also built into the mobile terminal (see FIG. 2).

The external positioning apparatus can be a cellular positioning system that computes the position of the mobile terminal by observing time differences among the arrivals of a radio signal transmitted by the mobile terminal at a plurality of observation points, i.e., base stations, which typically form part of the wireless network. Alternatively, the external positioning apparatus could be a single base station that the mobile terminal is in contact with. Each base station has a particular base station ID and a location associated with the base station ID. Thus, the location of a mobile terminal can be approximated to the actual location of a base station, but given that the typical area covered by a base station is often about one kilometer, it is difficult to accurately determine the position of the mobile terminal.

The role of base stations in wireless networks is described, for example, in “Cellular Radio Systems”, published by Artech House, Boston (editors: D. M. Balston and R. C. V. Macario; ISBN: 0-89006-646-9); “Digital Cellular Radio” written by G. Calhoun and published by Artech House, Boston (ISBN: 0-89006-266-8). “Cellular Radio Systems” and “Digital Cellular Radio” are hereby incorporated by reference in their entirety.

The position of a mobile terminal can also be tracked using external RFID tags (Radio Frequency Identification tags) in combination with an RFID reader built into the mobile terminal. How RFID tags and readers work is described in U.S. Patent Publication No. 20050143916 published Jun. 30, 2005 to Kim, In-Jun, et al. U.S. Patent Publication No. 20050143916 is incorporated by reference herein in its entirety.

In a first embodiment of the present invention, a method is provided for facilitating the detection of misuse of an identity during an electronic transaction. The first embodiment comprises the steps of: receiving a notification to authenticate the use of an identity at a first location, wherein the identity is associated with a first wireless terminal; determining an approximate location of the first wireless terminal based on cached position information, the approximate location of the first wireless terminal being a second location; determining whether the first and second locations match in geographical proximity; and generating an alert if the first and second locations do not match in geographical proximity.

The cached position information can be cached GPS position information stored on the first wireless terminal. The step of determining the second location can further comprise the step of updating the cached position information with an inertial navigation system correction performed by the first wireless terminal to provide an updated location of the first wireless terminal, the updated location being the second location.

In one aspect of the first embodiment, the step of determining the second location further comprises the step of detecting whether GPS signals are being received by the first wireless terminal to determine a post-transaction location of the first wireless terminal, the post-transaction location being the second location. The step of detecting whether sufficient GPS signals are being received by the first wireless terminal for the first terminal to determine a post-transaction is only performed if cached position information is not stored on the first wireless terminal or if the cached position information is stale. The cached position information is regarded as stale if the information has not been updated for a predetermined time period, e.g., has not been within the last 30 minutes, 15 minutes or last 5 minutes. The predetermined time period defining when the cached position information is stale can vary and may be factory set or optionally set by the owner or user of the identity.

The first wireless terminal can be any device that can wirelessly communicate with a network, such as a cell phone, which can communicate wirelessly with a wireless network. Examples of suppliers of cell phones are Nokia, Motorola, and Ericsson. The terms “cell” and “cellular” are regarded as equivalent terms.

The identity can be a credit card number, an account number, a debit card identification number, a driver's license number, a name and address, a social security number, a telephone number, a finger print, an iris scan identity, a retina scan identity, and a membership identity (such as a membership password), alone or in combination. The identity can also be any suitable biometric identity, such as a fingerprint, an iris scan identity and a retina scan identity, alone or in combination.

With respect to the notification associated with the use of the identity at the first location, the notification can be generated, for example, by an electronic transaction device (such as a credit card reader at a restaurant, an ATM machine such as a cash-withdrawal terminal that incorporates a card reader) at the first location or by, for example, a credit card company in communication with the electronic device at the first location.

It should be understood that the electronic transaction device could be any suitable device where the identity can be entered for the purpose of performing an electronic transaction. For example, a credit card with a credit card number can be read by the electronic device, and the credit card number communicated to the credit card company associated with the credit card, and in response the credit card company generates a notification, which is routed to the first wireless terminal. In response to receiving the notification, the first wireless terminal determines its location based on cached position information stored on the first wireless terminal or if the cached location information is stale requesting the first wireless terminal to provide a fresh location.

Referring to the invention in general, the generated alert can take any suitable form. For example, the alert can be an advisory message, which is communicated to at least one predetermined device. The at least one predetermined device could be the first wireless terminal and/or a second wireless terminal, wherein the first wireless terminal also acting as the predetermined device could be a cell phone. The predetermined device can be any suitable device, such as a Personal Digital Assistant (PDA) and/or a laptop capable of communicating with a wireless network and/or receiving emails, and a message server. An example of a message server is a server accessible via the world-wide-web (WWW) and which stores messages for downloading by, for example, a wireless capable laptop with authorization to access the message server. The message server could be an email server programmed to store and/or forward emails to subscribers. Other examples of message servers include the hotmail email system and the webmail service provided by Google called Gmail.

Alternatively, the generated alert can be routed to the user's email address recorded during a previous registration of the identity. Alternatively, the alert is a reply message, such as a non-authorization message, for blocking an associated electronic transaction at the first location, and more particularly for blocking a transaction at the first location associated with the identity. It should be understood that the identity may not be limited to one identity, but could encompass one or more identities such as a user's credit card number together with the user's email address, social security number, phone number, residential address or phone number. Thus, a card reader may read a user's credit card and the user asked to enter or otherwise provide their email address or phone number. Some retail outlets routinely ask customers for their home phone number and/or address.

In one aspect of the invention, the use of an identity is associated with a first time stamp. The first time stamp corresponds to the time of the associated electronic transaction (or attempted electronic transaction) performed at a first location, and wherein the step of reading a cached location is associated with a second time stamp. The speed can be calculated based on the distance between the first and second locations and the time difference between the first and second time stamps such that the first and second locations are judged not to match in geographical proximity if the speed is above a predetermined value. Thus, if the speed to travel between the first and second locations is calculated to be about 1000 mph, and the predetermined value is set at 40 mph, an alert would be generated.

In another aspect of the first embodiment, if the first and second locations do not match in geographical proximity, then a confidence score is calculated to determine if the position mismatch with respect to the first and second locations is acceptable or unacceptable, and the alert is only generated if the confidence score is below a predetermined threshold. In addition to the time and distance difference, the system can also use additional factors to derive the confidence score. These factors can be weather conditions, time of day, day of year, urban makeup (e.g. a suburb area versus a downtown area), etc.

In still another aspect of the first embodiment, the step of determining the second location further comprises the step of detecting a WiFi Unique ID associated with the position of the first wireless terminal, and converting the WiFi unique ID into a post-transaction location for the first wireless terminal, the post-transaction location being the second location, wherein the step of detecting a WiFi Unique ID is only performed if cached position information is not stored on the first wireless terminal. For example, if the wireless terminal lacks cached position information and the first wireless terminal is able to detect a WiFi unique ID, then the WiFi unique ID, which is used to determine the position of the first wireless terminal. This might entail accessing a database that matches a WiFi's unique ID (i.e., identity such as, but not limited to, an Internet media-access-control (MAC) address) with known positions corresponding to each WiFi unique ID. This database might be stored, for example, on a ≦1.5″ hard drive (i.e., a less-than or equal to 1.5 inch hard drive) or on a large capacity memory chip fitted to the first wireless terminal 160.

In still another aspect of the first embodiment, the step of determining the second location further comprises the step of detecting a WiMAX Unique ID associated with the position of the first terminal, and converting the WiMAX Unique ID into a post-transaction location for the first wireless terminal, the post-transaction location being the second location, wherein the step of detecting a WiMAX Unique ID is only performed if cached position information is not stored on the first wireless terminal. Alternatively, the step of detecting a WiMAX Unique ID is only performed if the cached position information is stale, wherein the cached position information is regarded as stale if the information has not been updated for a predetermined time period.

In still another aspect of the first embodiment, the step of determining the second location further comprises the step of obtaining a post-transaction position for the first wireless terminal as soon as the first wireless terminal is able to receive GPS signals to calculate its post-transaction position, the post-transaction position being the second location, wherein the step of obtaining a post-transaction position is only performed if cached position information is not stored on the first wireless terminal.

In still another aspect of the first embodiment, the step of determining the second location further comprises the step of obtaining a post-transaction position for the first wireless terminal as soon as the first wireless terminal is able to receive GPS signals to calculate its post-transaction position, the post-transaction position being the second location, wherein the step of obtaining a post-transaction position is only performed if the cached position information is stale, wherein the cached position information is regarded as stale if the information has not been updated for a predetermined time period.

In a second embodiment of the present invention, a method is provided for facilitating the detection of misuse of an identity during an electronic transaction. The second embodiment comprises the steps of: receiving a notification to authenticate the use of an identity at a first location, wherein the identity is associated with a first wireless terminal; determining an approximate location of the first wireless terminal based on cached position information stored on a GPS position database, wherein the GPS position database is operatively connected to a wireless provider 180 and/or a financial institution's computers 140, the approximate location of the first wireless terminal being a second location; determining whether the first and second locations match in geographical proximity; and generating an alert if the first and second locations do not match in geographical proximity.

In a third embodiment of the present invention, a method is provided for facilitating the detection of misuse of an identity during an electronic transaction, comprising the steps of: receiving a notification to authenticate the use of an identity at a first location, wherein the identity is associated with a first wireless terminal; reading a cached location of the first wireless terminal based on cached position information stored on the first wireless terminal, the location of the first wireless terminal being a second location; determining whether the first and second locations match in geographical proximity; determining a post-transaction location of the first wireless terminal if the first and second locations do not match in geographical proximity, the post-transaction location of the first wireless terminal being a third location; and generating an alert if: (1) the first and second locations do not match in geographical proximity and (2) the first and third locations do not match in geographical proximity.

Referring to the invention in general and with reference to the third embodiment, the post-transaction location can be obtained, for example, by processing GPS signals received by the first wireless terminal 160 within a reasonable time after the transaction (referred to hereinafter as “post-transaction GPS signals”). Post-transaction location can also be obtained, for example, using WiFi unique ID (if available) or WiMax unique ID. Alternatively, the post-transaction location can be obtained by using an inertial navigation module (INM) 400 (discussed infra) to convert the most recent cached location into a post-transaction location for the first wireless terminal, wherein updating the most recent cached position of the INM module is integrated into the design of the first wireless terminal (see, e.g., FIG. 3). Thus, the post-transaction location can be determined based on a method selected from the group consisting of: processing post-transaction GPS signals, WiFi unique ID, and WiMax unique ID, and any combination thereof.

In a fourth embodiment of the present invention, a method is provided for facilitating the detection of misuse of an identity during an electronic transaction, comprising the steps of: receiving a notification to authenticate the use of an identity at a first location, wherein the identity is associated with a first wireless terminal; reading a cached location of the first wireless terminal based on cached position information stored on the first wireless terminal, the location of the first wireless location being a second location; determining whether the first and second locations match in geographical proximity; determining the post-transaction location of the first wireless terminal if the first and second locations do not match in geographical proximity, the post-transaction location of the first wireless terminal being a third location; determining a post-transaction position of the first wireless terminal if (1) the first and second positions do not match in geographical proximity and (2) it is not possible to determine the post-transaction location, wherein the post-transaction position is treated as the third location; and generating an alert if: (1) the first and second locations do not match in geographical proximity and (2) the first and third locations do not match in geographical proximity.

FIG. 1 is a schematic block diagram showing exemplary hardware elements that can enable the practice of the various embodiments of the present invention. An electronic transaction terminal is shown at 120. The electronic transaction terminal 120 can be, for example, a credit and/or debit card terminal located at a first location such as a point of sale location inside a retail store, i.e., at a known first location. Alternatively, the terminal 120 could be a credit/debit card terminal linked to a cash register (not shown) or the terminal 120 could be a regular ATM (automatic teller machine) for dispensing cash to registered holders of cash cards. In other words, the terminal 120 can take various forms without detracting from the spirit of the present invention. If the first and second locations do not match in geographical proximity, the alert can be a reply message for blocking an associated electronic transaction at the first location.

The terminal 120 is operatively coupled to a financial institution's computers 140 such as a credit card company's computers or a bank's computers if, for example, terminal 120 is an ATM and used for cash withdrawals). The financial institution's computers 140 are those computers authorized to process the user's financial transactions. The financial institution's computers 140 are in turn able to communicate with a first wireless terminal 160 via a wireless provider 180 and, based on signal strength, the nearest base station 170 to the first wireless terminal 160. Examples of credit card companies include Visa, Discover, American Express, MasterCard, and Eurocard. Examples of wireless providers include Sprint, Verizon and T-Mobile.

An optional position database (PDB) 300 can be operatively coupled to the wireless provider 180. Alternatively, PDB 300 can be operatively coupled to the financial institution's computer 140. The PDB 300 can be operatively coupled to more than one element such as wireless provider 180 and financial institution's computers 140. The PDB 300 can be directly or indirectly linked to wireless provider 180 and/or financial institution's computers 140. The terms “coupled” or “operatively coupled” are intended to cover both direct and indirect links. Pre-transaction and/or post-transaction positions with respect to the first wireless terminal 160 can be stored on the PDB 300. The PDB 300 can store positions derived from any known position determination technique such as, but not limited to, GPS position data derived from a GPS receiver 200 located on the first wireless terminal 160 (see, e.g., FIG. 2).

The optional PDB 300 can, for example, archive or cache a position history of the first wireless terminal 160. Thus, if the first wireless terminal 160 is unable to receive GPS signals or is switched off, the optional position database 300 can be accessed to provide the latest available position of the first wireless terminal 160, i.e., in this scenario, the first wireless terminal 160 uploads its position at predetermined intervals to the wireless vendor 180 and thence to the position database 300.

Alternatively, positions based on previously received GPS signals can be stored in a memory 320 integrated with the first wireless terminal 180. The memory 320 can be any suitable memory such as, but not limited to: a RAM chip, a floppy disk, a hard disk drive such as an iPod battery powered 1.8-inch 60 GB hard disk drive or the anticipated 0.85 inch 3 GB hard disc drive, a CD-ROM, and a DVD-ROM, any known memory or anticipated memory option, alone or in combination.

In FIG. 1, the wireless terminal 160 is a cell phone fitted with a GPS receiver 200. The first wireless terminal can also include memory for storing cached positions, i.e., a history of the positions of the first wireless terminal, so that if the wireless terminal is required to supply its post-transaction position but is unable to do so, perhaps because the first wireless terminal is unable to receive GPS signals, then the latest cached position can be used. The first wireless terminal 160 can be a GPS enabled cell phone as shown, or any wireless terminal capable of communication with a wireless provider such as a Blackberry in combination with a GPS receiver.

Still referring to FIG. 1, terminal 120 includes a card reader 240 for reading a credit card 260. An identity in the form of a credit card number and details are stored on a magnetic strip 280 and are read by the card reader 240. It should be understood that the magnetic strip 280 could be replaced with any known or future technology, e.g., a smart chip embedded in a credit or debit card, which can be read by, for example, waving the card near a card reader enabled to so read credit and/or debit cards fitted with smart chips.

At any point after the identity has been read by terminal 120, a notification can be generated by the electronic terminal 120 or other device operatively coupled to the terminal 120, and/or the credit card company's or bank's computers 140. One or more notifications can be generated by, for example, the electronic transaction terminal 120 and the credit card company's or bank's computers 140, alone or in combination. The notification acts as a trigger wherein the post-transaction or cached position of the first wireless terminal 160 (treated as the second position) is determined and compared to the position of the electronic transaction terminal 120 (regarded as the first position). More specifically, a check is made to determine if the first and second positions match in geographical proximity. The task of determining if the first and second positions match in geographical proximity can be done by one or more elements such as, but not limited to, the first wireless terminal 160, the wireless provider 180 and the computers 140, the electronic transaction terminal 120 (or an optional processor 130 operatively coupled to the terminal 120), alone or in combination. If the computers 140, first wireless terminal 160, wireless provider 180, alone or in combination, is/are tasked to determine if the first and second positions match in geographical proximity, then the notification should include data representative of the first position of the electronic transaction terminal 120.

While wireless terminals (e.g., wireless mobile terminals such as cell phones) having a GPS receiver combined with a communication system capable of communicating with a base station are known (e.g., U.S. Pat. No. 5,945,944 describes such a device), the prior art does not teach a method and system for monitoring electronic purchases and cash-withdrawals of the present invention. U.S. Pat. No. 5,945,944, issued Aug. 31, 1999 to N. F. Krasner, is herein incorporated by reference in its entirety.

In another embodiment, a GPS receiver 200 operatively coupled to a miniature inertial navigation module (INM) 400. FIG. 2 shows a schematic block diagram of an exemplary first wireless terminal 160 fitted with a GPS receiver 200 operatively coupled to an INM 400. The GPS receiver and INM combination can be housed inside the housing 165 of the first wireless terminal. Suppliers of miniature inertial navigation hardware include Analog Devices Inc. and Comarco, Inc. (and more particularly its subsidiary Comarco Wireless Technologies (CWT) of Irvine, Calif. 92618, USA). CWT miniature inertial modules are capable of precision position measurements in buildings and urban canyons and, when combined with a GPS receiver 200, can determine the position of a first wireless terminal 160 with a high degree of accuracy and reliability.

INM technology in the form of silicon is available, for example, from Analog Devices Inc. (ADI). The ADI ADXL103 (a 5 mm×5 mm×2 mm LCC package), which is a high accuracy, high stability, low cost, low power, complete single axis accelerometer with a signal conditioned voltage output, all on a single monolithic IC. The ADXL213 supplied by ADI is a precision, low power, complete dual axis accelerometer with signal conditioned, duty cycle modulated outputs, on a single monolithic integrated chip (IC) measuring 5 mm×5 mm×2 mm. Also, ADI's ADXL311 is a low cost, low power, complete dual axis accelerometer with signal conditioned voltage outputs, all on a single monolithic IC of dimensions of just 5 mm×5 mm×2 mm. In addition, ADI's ADXRS401 is a low-cost complete ultra small and light (<0.15 cc, <0.5 gram) angular rate-sensing gyroscope capable of measuring up to 75 degrees per second with all of the required electronics on a single chip.

WORKING EXAMPLE

The following is a non-limiting working example of a fifth embodiment of the present invention. A credit card customer agrees to be locatable via his or her mobile phone provider and registers a credit card or debit card (hereinafter “credit card”) in such a manner that the user's credit card is associated with at least one mobile terminal. The process of registering a credit card in a Location-Based Fraud Protection (“LBFP”) System involves a financial institution which partners with one or more mobile phone or wireless providers that provide mobile geographical location(s). A mobile phone provider agrees, usually for a fee, to release the location of a subscriber who, in order to comply with privacy laws, authorizes this action. The financial institution, using the LBFP system, can register its clients using the following method (as shown in FIG. 3): sending a letter or calling the client, and requesting the client to call a toll-free number from his cell phone. Using the caller's ID, the LBFP system will require at least two identifying numbers. These identifying numbers can be the last 4 digits of the credit card and the home address zip code. Once the customer enters these numbers, the LBFP system will communicate these details to the client's financial institution for verification. For added security, the LBFP system can also challenge the client by sending a 4-digit SMS random number to the cell phone and asking the client to enter it using his phone keypad. If verified, the LBFP system will be able to associate the correct credit card with the customer's cell phone number. The LBFP system will then check to see if the client's cell phone carrier participates in this program. If it does, the LBFP will successfully add the client to its database (as described in the next paragraph) for credit card transaction monitoring. The LBFP system can then provide an optional unique PIN to the client so that he can access the LBFP web site to further custom the alerting logic. In turn, this customization can further increase the accuracy of the LBFP system. For example, the client can add known locations to be used when an online transaction takes place. Known locations can be a work address, relative/friend's address, etc. Using these addresses will increase the LBFP accuracy when a customer uses a credit card online by comparing known locations with client's cell phone location at the approximate time of the online transaction.

The financial institution stores in a database the subscriber customer (hereinafter “subscriber”) details. For example, the subscriber's first and last name (stored as a type UTF-8 characters), Mobile carrier/Wireless provider code (e.g., Sprint-1, Nextel-2) stored as type Integer number, 10-digit Mobile phone number (3-digit area code and 7-digit phone number, stored as type Integer number), and ID number that is associated with the financial institution's subscriber's ID number (stored as type Integer number), such cross-reference number acting as a security measure whereby no personal information (SSN, credit card number) is stored in such database.

After registration, each time a subscriber uses the credit card, at the time of a purchase transaction or near to that time, the financial institution will contact the LBFP System servers via a secure encryption link (e.g., SSL/SSH/VPN . With no personal information of the subscriber being transmitted, the financial institution provides the date of transaction, time of transaction, address of the business where the transaction took place, type of transaction (online or physical) and the subscriber's ID number. The LBFP servers will then initiate a request via secure TCP/IP link (e.g., SSL/SSH/VPN) to the subscriber's mobile phone provider requesting the subscriber's post-transaction location, heading and/or speed (see FIG. 4). The actual physical location of the LBFP System does not matter. The LBFP System can be located on the financial institution's premises or at a distance therefrom. If at a distance from the LBFP System, the financial institution can be linked to it via a secure network link (e.g. VPN/SSh/SSL).

When the client uses his or her credit card, the LBFP System receives the purchase information from the financial institution, it cross-references the identifying item from the financial institution with the subscriber's unique carrier ID (e.g., cell phone number).

After the LBFP System finds the subscriber's unique carrier ID (or related information), it will then request the subscriber's last known location from the subscriber's carrier. Each carrier has specific means for interfacing with and providing this information. It is sometimes called API, which are known programming methods to execute specific functions. As a practical matter, the LBFP System, or the financial institution, will create a relationship and interface with the carrier ahead of time in order to obtain this information electronically. The LBFP System can interface with multiple carriers and multiple financial institutions.

There are at least four (4) possible outcomes from the application of the above procedure, namely, (1) unable to locate the cell phone (cell phone out or range, turned off, or other reason that the cell phone cannot be located), (2) able to locate the cell phone—the cell phone is not at home, work or other known location, (3) able to locate the cell phone—the cell phone is at home, work or other known location, the “known location” being the location, in addition to client's home address, where the client usually resides (i.e., work, family addresses), these locations are optional and normally would be entered by the client at registration (see registration process above for more details), (4) able to locate phone with a timestamp prior to the purchase/transaction time.

With respect to each of the at least three (3) possible outcomes, a decision (score) table is created using at least the parameters: ΔD=distance between Location of Mobile phone and Location of Purchase Point, and ΔT=difference between Time located phone and Time of transaction, among potential parameters. The LBFP system may use additional factors to arrive at a final score/Fraud Confidence Level (“FCL”). These factors include a client's heading, speed, urban type/density, time of day, day of week, weather conditions, etc. As to ΔD, the time can range from 0 to 30 kilometers or more. As to ΔT, the time can range from 0 to 30 minutes or more. Depending upon the sensitivity desired for questioning whether a credit card purchase is valid, Fraud Confidence Level (“FCL”) values are assigned within the LBFP System for each credit card transaction. When an FCL is calculated by the LBFP System to be above a threshold value, a flag will be raised as to a valid transaction. Alternatively, when an FCL is calculated by the LBFP System to be below a threshold value, a flag is raised as to a potentially fraudulent credit card use.

For example, in the case of outcome (1), if the wireless provider is unable to locate the cell phone (no coverage, turned off, etc.), the LBFP System will switch into “search mode” as follows: (a) the system will keep attempting to locate the cell phone every 10 minutes for the next 30 minutes, or (b) if the location is determined within 30 minutes after the purchase transaction took place, the LBFP system will calculate the distance between the purchase location and the mobile phone location using an exemplar Table 1 to determine an FCL.

TABLE 1
scoring example
If the location of cell phone is within The LBFP System tags
a distance (Km) of the purchase point the transaction with an FCL
and within 20 minutes of the transaction of
½ 3
 1 4
 5 5
10 6
15 7
20 8
25 9
>30   10

In the case of outcome (2)—if the LBFP System was able to locate the cell phone, though the cell phone is not at home, namely, the location of the cell phone was found within 10 minutes after the purchase transaction took place and the purchase type is physical (not online/internet), the LBFP System will calculate the distance between the purchase location or sale point and the mobile phone location using an exemplar Table 2 to determine an FCL.

TABLE 2
scoring example
If the location of cell phone is within a The LBFP System tags
distance (Km) of the purchase point and the transaction with an
within 10 minutes of the transaction FCL of
½ 3
1 4
5 5
10  8
>10    10

In the case of outcome (3)—the LBFP System will calculate the distance difference between the customer's known home, work or other known address and the location of the cell phone. If the LBFP System was able to locate the cell phone with the cell phone being at the above known locations, within 10 minutes after the purchase transaction took place AND the purchase type is online/internet, the LBFP System will calculate the distance between the above known locations and the mobile phone location using an example Table 3 to determine an FCL.

TABLE 3
scoring example
If the location of cell phone is within a The LBFP System tags
distance(Km) of a known location and within the transaction with
10 minutes of the transaction an FCL of
½ 4
1 5
5 6
10  8
>10    10

In the case of outcome (4)—a customer purchased goods or service from a physical location (e.g., store) and the LBFP System is unable to locate the cell phone. There may be situations whereby the wireless provider was able to acquire the customer's location prior to the purchase and store it in a temporary database. If the timestamp is close to the purchase time and the LBFP system is unable to get a newer location fix, then, in that case, the LBFP system may use the cached location information and ΔT to calculate the FCL using a scoring table similar to table 1. The cached location information can be either the location information stored on the location server or on the MT.

In addition to the above data, the LBFP system may use additional factors in order to calculate the LFC/fraud score. These factors may be: time of day, day of the week, urban make (a suburb vs. downtown), weather conditions and traffic condition, among others. This is true for all possible scenarios.

With respect to an online purchase, such as a purchase from the online company Amazon.com®, the LBFP System may either know in advance, or at the time of the purchase, the frequent or usual address of the purchaser, for instance, home, work or other known location. The configuration and customization can be defined both globally as a system-wide rule and on per individual basis when the subscriber registered for this service. Customization can include scoring/LFC threshold, known locations, and client notification methods (e.g., SMS, email).

In the case of wireless network, GPS enabled cellular phones require, for the most part, a clear line of site with the sky in order to acquire GPS location. Since that does not always happen (in case the cellular phone is in the subway or other obstructed location), the location of the cellular phone sometimes does not match the exact location of the business. That is the reason the LBFP System compares both locations within a radius of X miles from such locations. (The number of X miles will be determined once an LBFP System in a particular environment has been through beta testing and becomes operational.) The X miles factor is also expected to vary in various geographical locations, such as rural locations versus large cities. Note also that there are cellular phones that can be located with means other than GPS. An example is the triangulation of the cellular phone's signals with surrounding cell towers. To the LBFP System, the manner by which the carrier obtains the mobile phone's location does not matter. The LBFP System will take into account parameters provided by the carrier such as heading, speed, acquisition-time and location error (accuracy).

The invention has been described herein with reference to particular exemplary embodiments. Certain alterations and modifications may be apparent to those skilled in the art, without departing from the scope of the invention. The exemplary embodiments are meant to be illustrative, not limiting of the scope of the invention, which is defined by the appended claims.

Claims (36)

1. A method for facilitating the detection of misuse of an identity during an electronic transaction at a first location, comprising the steps of:
updating a cached position of a first wireless terminal;
receiving a notification to authenticate the use of an identity at the first location, wherein the identity is associated with the first wireless terminal;
determining whether a cached position is stale based on a predetermined time period;
determining a second location of the first wireless terminal based on the cached pre-transaction position if the cached pre-transaction position is not stale;
determining a third location of the first wireless terminal based on a requested position if the cached pre-transaction position is stale;
determining whether the first and second locations match in geographical proximity;
determining a third location of the first wireless terminal based on the requested position if the first location does not match in geographical proximity with the second location;
determining whether the first and third locations match in geographical proximity; and
generating an alert if the first and third locations do not match in geographical proximity.
2. The method of claim 1, wherein the cached pre-transaction position is stored on a position database operably coupled to a wireless provider.
3. The method of claim 1, wherein the cached pre-transaction position is stored on the first wireless terminal.
4. The method of claim 1, wherein the cached pre-transaction position stored on a financial institution's computer.
5. The method of claim 1, wherein the identity is at least one identity selected from the group consisting of: a credit card number, an account number, a debit card identification number, a driver's license number, a name and address, a social security number, a telephone number, a finger print, an iris scan identity, a login ID, retina scan identity, a membership identity, and any combination thereof.
6. The method of claim 1, wherein the alert is an advisory message, and wherein the advisory message is communicated to at least one predetermined device.
7. The method of claim 1, wherein the alert is an advisory message, wherein the advisory message is communicated to at least one predetermined device, and wherein the predetermined device is a second wireless terminal.
8. The method of claim 1, wherein the alert is an advisory message, wherein the advisory message is communicated to at least one predetermined device, and wherein the predetermined device is a Personal Digital Assistant (PDA) capable of communicating with a wireless network.
9. The method of claim 1, wherein the alert is an advisory message, wherein the advisory message is communicated to at least one predetermined device, and wherein the predetermined device is a laptop computer capable of communicating with a wireless network.
10. The method of claim 1, wherein the alert is an advisory message, wherein the advisory message is communicated to at least one predetermined device, and wherein the predetermined device is a message server.
11. The method of claim 1, wherein the alert is an advisory message, wherein the advisory message is communicated to at least one predetermined device, and wherein the predetermined device is an email server.
12. The method of claim 1, wherein the alert is an advisory message, wherein the advisory message is communicated to at least one predetermined device, and wherein the predetermined device is a cell phone.
13. The method of claim 1, wherein the alert is an advisory message, wherein the advisory message is communicated to at least one predetermined device, wherein the predetermined device is the first wireless terminal.
14. The method of claim 1, wherein the alert is sent to at least one predetermined device in response to a determination that the first location is more than a predetermined distance away from the second location.
15. The method of claim 1, wherein the identity includes a first time stamp, wherein the first time stamp corresponds to the time of the electronic transaction performed at the first location, and wherein the cached location is associated with a second time stamp.
16. The method of claim 15 further comprising a step of calculating a speed, wherein the speed is based on a distance between the first and second locations and a time difference between the first and second time stamps, whereby the first and second locations do not match in geographical proximity if the speed is above a predetermined value.
17. The method of claim 1, wherein if the first and third locations do not match in geographical proximity then a confidence score is calculated to determine if a position mismatch with respect to the first and second locations is acceptable or unacceptable, and wherein an alert is only generated if the confidence score is below a predetermined threshold.
18. The method of claim 1, wherein the cached pre-transaction position information is in the form of cached GPS position information stored on the first wireless terminal and a step of determining the second location further comprises the step of updating the cached position information with an inertial navigation system correction performed by the first wireless terminal to provide an updated location of the first wireless terminal, the updated location being the second location.
19. The method of claim 1, wherein the step of determining the second location further comprises a step of obtaining a post-transaction position for the first wireless terminal as soon as the first wireless terminal is able to receive GPS signals to calculate its post-transaction position, the post-transaction position being the second location, and wherein the step of obtaining a post-transaction position is only performed if cached position information is not stored on the first wireless terminal.
20. The method of claim 1, wherein the step of determining the second location further comprises a step of obtaining a requested position for the first wireless terminal as soon as the first wireless terminal is able to receive GPS signals to calculate its requested position, the requested position being the second location, wherein the step of obtaining a requested position is only performed if the cached position information is stale, and wherein the cached position information is regarded as stale if the information has not been updated for a predetermined time period.
21. The method of claim 1, wherein the step of determining the second location further comprises a step of obtaining a post-transaction position for the first wireless terminal as soon as a wireless network for the first wireless terminal is able to receive signals to calculate a post-transaction position of the first wireless terminal, the post-transaction position being the second location, wherein the step of obtaining a post-transaction position is only performed if the cached position information is stale, and wherein the cached position information is regarded as stale if the information has not been updated for a predetermined time period.
22. The method of claim 1, further comprising:
generating an alert if the first and second locations do not match in geographical proximity.
23. The method of claim 1, wherein the post-transaction location is determined based on a method selected from the group consisting of: processing post-transaction GPS signals, triangulation signals, WiFi unique ID, WiMax unique ID and any other unique network ID.
24. A method for facilitating the detection of misuse of an identity during an electronic transaction, comprising the steps of:
updating a position database to cache a location of a first wireless terminal;
receiving a notification to authenticate the use of an identity at a first location, wherein the identity is associated with a first wireless terminal;
determining a second location, wherein the second location is the location of the first wireless terminal, and wherein the second location is determined by accessing the position database;
determining whether the first and second locations match in geographical proximity;
determining a post-transaction location of the first wireless terminal if the first and second locations do not match in geographical proximity, the post-transaction location of the first wireless terminal being a third location; and
generating an alert if: (1) the first and second locations do not match in geographical proximity and (2) the first and third locations do not match in geographical proximity.
25. The method of claim 24, wherein the post-transaction location is determined based on a method selected from the group consisting of: processing post-transaction GPS signals, triangulation signals, WiFi unique ID, WiMax unique ID and any other unique network ID.
26. The method of claim 24, wherein the cached position information is stored on the first wireless terminal.
27. The method of claim 24, wherein the cached position information is stored on a position database operatively coupled to a financial institution's computer.
28. The method of claim 24, wherein the cached position information is stored on a position database operatively coupled to a wireless provider.
29. The method of claim 24, wherein the identity is selected from the group consisting of: a credit card number, an account number, a debit card identification number, a driver's license number, a name and address, a social security number, a telephone number, a finger print, an iris scan identity, a retina scan identity, a login ID, a membership identity, and any combination thereof.
30. The method of claim 24, wherein the alert is an advisory message, and wherein the advisory message is communicated to at least one predetermined device.
31. The method of claim 24, wherein the alert is a reply message for blocking the use of the identity at the first location.
32. The method of claim 24, wherein the first and second locations do not match in geographical proximity if the first location is more than a predetermined distance away from the second location.
33. The method of claim 24, wherein the first and third locations do not match in geographical proximity if the first location is more than a predetermined distance away from the second location.
34. The method of claim 24, wherein the identity includes a first time stamp, wherein the first time stamp corresponds to the time of the electronic transaction performed at the first location, and wherein the cached location is associated with a second time stamp.
35. The method of claim 34 further comprising a step of calculating a speed, wherein the speed is based on a distance between the first and second locations and a time difference between the first and second time stamps, whereby the first and second locations do not match in geographical proximity if the speed is outside a predetermined range.
36. The method of claim 24, wherein the detection of misuse is further determined by a fraud score compiled from a combination of additional data including heading, speed of wireless terminal, time of day, weather condition, and proximity to home address.
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US11346240 US7503489B2 (en) 2005-04-26 2006-02-03 Method and system for monitoring electronic purchases and cash-withdrawals
US12260065 US20090102712A1 (en) 2005-04-26 2008-10-28 Method and system for monitoring electronic purchases and cash-withdrawals
US12379479 US7832636B2 (en) 2005-04-26 2009-02-23 Method and system for authenticating use of item
US13065691 US8640197B2 (en) 2005-04-26 2011-03-28 Methods for acquiring an internet user's consent to be located and for authenticating the identity of the user using location information
US13290988 US8413898B2 (en) 2005-04-26 2011-11-07 Method and system for monitoring electronic purchases and cash-withdrawals
US13479235 US8770477B2 (en) 2005-04-26 2012-05-23 Method for identifying the georgrapic location of a router
US14145862 US9033225B2 (en) 2005-04-26 2013-12-31 Method and system for authenticating internet users
US14446527 US20140337503A1 (en) 2005-04-26 2014-07-30 Methods for acquiring an internet user's consent to be located
US14479266 US20150020162A1 (en) 2005-04-26 2014-09-05 Methods for acquiring an internet user's consent to be located
US14835707 US9391985B2 (en) 2005-04-26 2015-08-25 Environment-based two-factor authentication without geo-location
US15134545 US9727867B2 (en) 2005-04-26 2016-04-21 Method for detecting misuse of identity in electronic transactions

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US13065691 Continuation-In-Part US8640197B2 (en) 2005-04-26 2011-03-28 Methods for acquiring an internet user's consent to be located and for authenticating the identity of the user using location information

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US7832636B2 (en) 2010-11-16 grant
US20060237531A1 (en) 2006-10-26 application

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